/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this file, * You can obtain one at http://mozilla.org/MPL/2.0/. */ /* -*- indent-tabs-mode: nil; js-indent-level: 4 -*- */ "use strict"; // Ignore calls made through these function pointers var ignoreIndirectCalls = { "mallocSizeOf" : true, "aMallocSizeOf" : true, "__conv" : true, "__convf" : true, "prerrortable.c:callback_newtable" : true, "mozalloc_oom.cpp:void (* gAbortHandler)(size_t)" : true, }; // Types that when constructed with no arguments, are "safe" values (they do // not contain GC pointers, or values with nontrivial destructors.) var typesWithSafeConstructors = new Set([ "mozilla::Maybe", "mozilla::dom::Nullable", "mozilla::dom::Optional", "mozilla::UniquePtr", "js::UniquePtr" ]); var resetterMethods = { 'mozilla::Maybe': new Set(["reset"]), 'mozilla::UniquePtr': new Set(["reset"]), 'js::UniquePtr': new Set(["reset"]), 'mozilla::dom::Nullable': new Set(["SetNull"]), 'mozilla::dom::TypedArray_base': new Set(["Reset"]), 'RefPtr': new Set(["forget"]), 'nsCOMPtr': new Set(["forget"]), 'JS::AutoAssertNoGC': new Set(["reset"]), }; function isRefcountedDtor(name) { return name.includes("::~RefPtr(") || name.includes("::~nsCOMPtr("); } function indirectCallCannotGC(fullCaller, fullVariable) { var caller = readable(fullCaller); // This is usually a simple variable name, but sometimes a full name gets // passed through. And sometimes that name is truncated. Examples: // _ZL13gAbortHandler$mozalloc_oom.cpp:void (* gAbortHandler)(size_t) // _ZL14pMutexUnlockFn$umutex.cpp:void (* pMutexUnlockFn)(const void* var name = readable(fullVariable); if (name in ignoreIndirectCalls) return true; if (name == "mapper" && caller == "ptio.c:pt_MapError") return true; if (name == "params" && caller == "PR_ExplodeTime") return true; // hook called during script finalization which cannot GC. if (/CallDestroyScriptHook/.test(caller)) return true; // Call through a 'callback' function pointer, in a place where we're going // to be throwing a JS exception. if (name == "callback" && caller.includes("js::ErrorToException")) return true; // The math cache only gets called with non-GC math functions. if (name == "f" && caller.includes("js::MathCache::lookup")) return true; // It would probably be better to somehow rewrite PR_CallOnce(foo) into a // call of foo, but for now just assume that nobody is crazy enough to use // PR_CallOnce with a function that can GC. if (name == "func" && caller == "PR_CallOnce") return true; return false; } // Ignore calls through functions pointers with these types var ignoreClasses = { "JSStringFinalizer" : true, "SprintfState" : true, "SprintfStateStr" : true, "JSLocaleCallbacks" : true, "JSC::ExecutableAllocator" : true, "PRIOMethods": true, "_MD_IOVector" : true, "malloc_table_t": true, // replace_malloc "malloc_hook_table_t": true, // replace_malloc "mozilla::MallocSizeOf": true, "MozMallocSizeOf": true, }; // Ignore calls through TYPE.FIELD, where TYPE is the class or struct name containing // a function pointer field named FIELD. var ignoreCallees = { "js::Class.trace" : true, "js::Class.finalize" : true, "JSClassOps.trace" : true, "JSClassOps.finalize" : true, "JSRuntime.destroyPrincipals" : true, "icu_50::UObject.__deleting_dtor" : true, // destructors in ICU code can't cause GC "mozilla::CycleCollectedJSRuntime.DescribeCustomObjects" : true, // During tracing, cannot GC. "mozilla::CycleCollectedJSRuntime.NoteCustomGCThingXPCOMChildren" : true, // During tracing, cannot GC. "PLDHashTableOps.hashKey" : true, "PLDHashTableOps.clearEntry" : true, "z_stream_s.zfree" : true, "z_stream_s.zalloc" : true, "GrGLInterface.fCallback" : true, "std::strstreambuf._M_alloc_fun" : true, "std::strstreambuf._M_free_fun" : true, "struct js::gc::Callback.op" : true, "mozilla::ThreadSharedFloatArrayBufferList::Storage.mFree" : true, "mozilla::SizeOfState.mMallocSizeOf": true, "mozilla::gfx::SourceSurfaceRawData.mDeallocator": true, }; function fieldCallCannotGC(csu, fullfield) { if (csu in ignoreClasses) return true; if (fullfield in ignoreCallees) return true; return false; } function ignoreEdgeUse(edge, variable, body) { // Horrible special case for ignoring a false positive in xptcstubs: there // is a local variable 'paramBuffer' holding an array of nsXPTCMiniVariant // on the stack, which appears to be live across a GC call because its // constructor is called when the array is initialized, even though the // constructor is a no-op. So we'll do a very narrow exclusion for the use // that incorrectly started the live range, which was basically "__temp_1 = // paramBuffer". // // By scoping it so narrowly, we can detect most hazards that would be // caused by modifications in the PrepareAndDispatch code. It just barely // avoids having a hazard already. if (('Name' in variable) && (variable.Name[0] == 'paramBuffer')) { if (body.BlockId.Kind == 'Function' && body.BlockId.Variable.Name[0] == 'PrepareAndDispatch') if (edge.Kind == 'Assign' && edge.Type.Kind == 'Pointer') if (edge.Exp[0].Kind == 'Var' && edge.Exp[1].Kind == 'Var') if (edge.Exp[1].Variable.Kind == 'Local' && edge.Exp[1].Variable.Name[0] == 'paramBuffer') return true; } // Functions which should not be treated as using variable. if (edge.Kind == "Call") { var callee = edge.Exp[0]; if (callee.Kind == "Var") { var name = callee.Variable.Name[0]; if (/~DebugOnly/.test(name)) return true; if (/~ScopedThreadSafeStringInspector/.test(name)) return true; } } return false; } function ignoreEdgeAddressTaken(edge) { // Functions which may take indirect pointers to unrooted GC things, // but will copy them into rooted locations before calling anything // that can GC. These parameters should usually be replaced with // handles or mutable handles. if (edge.Kind == "Call") { var callee = edge.Exp[0]; if (callee.Kind == "Var") { var name = callee.Variable.Name[0]; if (/js::Invoke\(/.test(name)) return true; } } return false; } // Ignore calls of these functions (so ignore any stack containing these) var ignoreFunctions = { "ptio.c:pt_MapError" : true, "je_malloc_printf" : true, "malloc_usable_size" : true, "vprintf_stderr" : true, "PR_ExplodeTime" : true, "PR_ErrorInstallTable" : true, "PR_SetThreadPrivate" : true, "uint8 NS_IsMainThread()" : true, // Has an indirect call under it by the name "__f", which seemed too // generic to ignore by itself. "void* std::_Locale_impl::~_Locale_impl(int32)" : true, // Bug 1056410 - devirtualization prevents the standard nsISupports::Release heuristic from working "uint32 nsXPConnect::Release()" : true, "uint32 nsAtom::Release()" : true, // Allocation API "malloc": true, "calloc": true, "realloc": true, "free": true, // FIXME! "NS_LogInit": true, "NS_LogTerm": true, "NS_LogAddRef": true, "NS_LogRelease": true, "NS_LogCtor": true, "NS_LogDtor": true, "NS_LogCOMPtrAddRef": true, "NS_LogCOMPtrRelease": true, // FIXME! "NS_DebugBreak": true, // Similar to heap snapshot mock classes, and GTests below. This posts a // synchronous runnable when a GTest fails, and we are pretty sure that the // particular runnable it posts can't even GC, but the analysis isn't // currently smart enough to determine that. In either case, this is (a) // only in GTests, and (b) only when the Gtest has already failed. We have // static and dynamic checks for no GC in the non-test code, and in the test // code we fall back to only the dynamic checks. "void test::RingbufferDumper::OnTestPartResult(testing::TestPartResult*)" : true, "float64 JS_GetCurrentEmbedderTime()" : true, // This calls any JSObjectMovedOp for the tenured object via an indirect call. "JSObject* js::TenuringTracer::moveToTenuredSlow(JSObject*)" : true, "void js::Nursery::freeMallocedBuffers()" : true, "void js::AutoEnterOOMUnsafeRegion::crash(uint64, int8*)" : true, "void mozilla::dom::WorkerPrivate::AssertIsOnWorkerThread() const" : true, // It would be cool to somehow annotate that nsTHashtable will use // nsTHashtable::s_MatchEntry for its matchEntry function pointer, but // there is no mechanism for that. So we will just annotate a particularly // troublesome logging-related usage. "EntryType* nsTHashtable::PutEntry(nsTHashtable::KeyType, const fallible_t&) [with EntryType = nsBaseHashtableET >; nsTHashtable::KeyType = const char*; nsTHashtable::fallible_t = mozilla::fallible_t]" : true, "EntryType* nsTHashtable::GetEntry(nsTHashtable::KeyType) const [with EntryType = nsBaseHashtableET >; nsTHashtable::KeyType = const char*]" : true, "EntryType* nsTHashtable::PutEntry(nsTHashtable::KeyType) [with EntryType = nsBaseHashtableET, nsAutoPtr::OrderingEntry> >; nsTHashtable::KeyType = const mozilla::BlockingResourceBase*]" : true, "EntryType* nsTHashtable::GetEntry(nsTHashtable::KeyType) const [with EntryType = nsBaseHashtableET, nsAutoPtr::OrderingEntry> >; nsTHashtable::KeyType = const mozilla::BlockingResourceBase*]" : true, // VTune internals that lazy-load a shared library and make IndirectCalls. "iJIT_IsProfilingActive" : true, "iJIT_NotifyEvent": true, // The big hammers. "PR_GetCurrentThread" : true, "calloc" : true, // This will happen early enough in initialization to not matter. "_PR_UnixInit" : true, "uint8 nsContentUtils::IsExpandedPrincipal(nsIPrincipal*)" : true, "void mozilla::AutoProfilerLabel::~AutoProfilerLabel(int32)" : true, // Stores a function pointer in an AutoProfilerLabelData struct and calls it. // And it's in mozglue, which doesn't have access to the attributes yet. "void mozilla::ProfilerLabelEnd(std::tuple*)" : true, // This gets into PLDHashTable function pointer territory, and should get // set up early enough to not do anything when it matters anyway. "mozilla::LogModule* mozilla::LogModule::Get(int8*)": true, // This annotation is correct, but the reasoning is still being hashed out // in bug 1582326 comment 8 and on. "nsCycleCollector.cpp:nsISupports* CanonicalizeXPCOMParticipant(nsISupports*)": true, // PLDHashTable again "void mozilla::DeadlockDetector::Add(const T*) [with T = mozilla::BlockingResourceBase]": true, // OOM handling during logging "void mozilla::detail::log_print(mozilla::LogModule*, int32, int8*)": true, // This would need to know that the nsCOMPtr refcount will not go to zero. "uint8 XPCJSRuntime::DescribeCustomObjects(JSObject*, JSClass*, int8[72]*)[72]) const": true, // As the comment says "Refcount isn't zero, so Suspect won't delete anything." "uint64 nsCycleCollectingAutoRefCnt::incr(void*, nsCycleCollectionParticipant*) [with void (* suspect)(void*, nsCycleCollectionParticipant*, nsCycleCollectingAutoRefCnt*, bool*) = NS_CycleCollectorSuspect3; uintptr_t = long unsigned int]": true, // Calls MergeSort "uint8 v8::internal::RegExpDisjunction::SortConsecutiveAtoms(v8::internal::RegExpCompiler*)": true, // nsIEventTarget.IsOnCurrentThreadInfallible does not get resolved, and // this is called on non-JS threads so cannot use AutoSuppressGCAnalysis. "uint8 nsAutoOwningEventTarget::IsCurrentThread() const": true, // ~JSStreamConsumer calls 2 ~RefCnt/~nsCOMPtr destructors for its fields, // but the body of the destructor is written so that all Releases // are proxied, and the members will all be empty at destruction time. "void mozilla::dom::JSStreamConsumer::~JSStreamConsumer() [[base_dtor]]": true, }; function extraGCFunctions(readableNames) { return ["ffi_call"].filter(f => f in readableNames); } function isProtobuf(name) { return name.match(/\bgoogle::protobuf\b/) || name.match(/\bmozilla::devtools::protobuf\b/); } function isHeapSnapshotMockClass(name) { return name.match(/\bMockWriter\b/) || name.match(/\bMockDeserializedNode\b/); } function isGTest(name) { return name.match(/\btesting::/); } function isICU(name) { return name.match(/\bicu_\d+::/) || name.match(/u(prv_malloc|prv_realloc|prv_free|case_toFullLower)_\d+/) } function ignoreGCFunction(mangled, readableNames) { // Field calls will not be in readableNames if (!(mangled in readableNames)) return false; const fun = readableNames[mangled][0]; if (fun in ignoreFunctions) return true; // The protobuf library, and [de]serialization code generated by the // protobuf compiler, uses a _ton_ of function pointers but they are all // internal. The same is true for ICU. Easiest to just ignore that mess // here. if (isProtobuf(fun) || isICU(fun)) return true; // Ignore anything that goes through heap snapshot GTests or mocked classes // used in heap snapshot GTests. GTest and GMock expose a lot of virtual // methods and function pointers that could potentially GC after an // assertion has already failed (depending on user-provided code), but don't // exhibit that behavior currently. For non-test code, we have dynamic and // static checks that ensure we don't GC. However, for test code we opt out // of static checks here, because of the above stated GMock/GTest issues, // and rely on only the dynamic checks provided by AutoAssertCannotGC. if (isHeapSnapshotMockClass(fun) || isGTest(fun)) return true; // Templatized function if (fun.includes("void nsCOMPtr::Assert_NoQueryNeeded()")) return true; // Bug 1577915 - Sixgill is ignoring a template param that makes its CFG // impossible. if (fun.includes("UnwrapObjectInternal") && fun.includes("mayBeWrapper = false")) return true; // These call through an 'op' function pointer. if (fun.includes("js::WeakMap::getDelegate(")) return true; // TODO: modify refillFreeList to not need data flow analysis to // understand it cannot GC. As of gcc 6, the same problem occurs with // tryNewTenuredThing, tryNewNurseryObject, and others. if (/refillFreeList|tryNew/.test(fun) && /= js::NoGC/.test(fun)) return true; return false; } function stripUCSAndNamespace(name) { name = name.replace(/(struct|class|union|const) /g, ""); name = name.replace(/(js::ctypes::|js::|JS::|mozilla::dom::|mozilla::)/g, ""); return name; } function extraRootedGCThings() { return [ 'JSAddonId' ]; } function extraRootedPointers() { return [ ]; } function isRootedGCPointerTypeName(name) { name = stripUCSAndNamespace(name); if (name.startsWith('MaybeRooted<')) return /\(js::AllowGC\)1u>::RootType/.test(name); return false; } function isUnsafeStorage(typeName) { typeName = stripUCSAndNamespace(typeName); return typeName.startsWith('UniquePtr<'); } // If edgeType is a constructor type, return whatever bits it implies for its // scope (or zero if not matching). function isLimitConstructor(typeInfo, edgeType, varName) { // Check whether this could be a constructor if (edgeType.Kind != 'Function') return 0; if (!('TypeFunctionCSU' in edgeType)) return 0; if (edgeType.Type.Kind != 'Void') return 0; // Check whether the type is a known suppression type. var type = edgeType.TypeFunctionCSU.Type.Name; let attrs = 0; if (type in typeInfo.GCSuppressors) attrs = attrs | ATTR_GC_SUPPRESSED; // And now make sure this is the constructor, not some other method on a // suppression type. varName[0] contains the qualified name. var [ mangled, unmangled ] = splitFunction(varName[0]); if (mangled.search(/C\d[EI]/) == -1) return 0; // Mangled names of constructors have CE or CI var m = unmangled.match(/([~\w]+)(?:<.*>)?\(/); if (!m) return 0; var type_stem = type.replace(/\w+::/g, '').replace(/\<.*\>/g, ''); if (m[1] != type_stem) return 0; return attrs; } // XPIDL-generated methods may invoke JS code, depending on the IDL // attributes. This is not visible in the static callgraph since it // goes through generated asm code. We can use the JS_HAZ_CAN_RUN_SCRIPT // annotation to tell whether this is possible, which is set programmatically // by the code generator when needed (bug 1347999): // https://searchfox.org/mozilla-central/rev/81c52abeec336685330af5956c37b4bcf8926476/xpcom/idl-parser/xpidl/header.py#213-219 // // Note that WebIDL callbacks can also invoke JS code, but our code generator // produces regular C++ code and so does not need any annotations. (There will // be a call to JS::Call() or similar.) function virtualCanRunJS(csu, field) { const tags = typeInfo.OtherFieldTags; const iface = tags[csu] if (!iface) { return false; } const virtual_method_tags = iface[field]; return virtual_method_tags && virtual_method_tags.includes("Can run script"); } function listNonGCPointers() { return [ // Safe only because jsids are currently only made from pinned strings. 'NPIdentifier', ]; } function isJSNative(mangled) { // _Z...E = function // 9JSContext = JSContext* // j = uint32 // PN2JS5Value = JS::Value* // P = pointer // N2JS = JS:: // 5Value = Value return mangled.endsWith("P9JSContextjPN2JS5ValueE") && mangled.startsWith("_Z"); }